ATP-mediated transient behavior of stomatocyte nanosystems

Hailong Che; Jianzhi Zhu; Shidong Song; Alexander F. Mason; Shoupeng Cao; Imke A.B. Pijpers; Loai K.E.A. Abdelmohsen; Jan C.M. van Hest

doi:10.1002/anie.201906331

ATP-mediated transient behavior of stomatocyte nanosystems

Hailong Che, Jianzhi Zhu, Shidong Song, Alexander F. Mason, Shoupeng Cao, Imke A.B. Pijpers, Loai K.E.A. Abdelmohsen (Corresponding author), Jan C.M. van Hest (Corresponding author)

Bio-Organic Chemistry

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Samenvatting

In nature, dynamic processes are ubiquitous and often characterized by adaptive, transient behavior. Herein, we present the development of a transient bowl-shaped nanoreactor system, or stomatocyte, the properties of which are mediated by molecular interactions. In a stepwise fashion, we couple motility to a dynamic process, which is maintained by transient events; namely, binding and unbinding of adenosine triphosphate (ATP). The surface of the nanosystem is decorated with polylysine (PLL), and regulation is achieved by addition of ATP. The dynamic interaction between PLL and ATP leads to an increase in the hydrophobicity of the PLL–ATP complex and subsequently to a collapse of the polymer; this causes a narrowing of the opening of the stomatocytes. The presence of the apyrase, which hydrolyzes ATP, leads to a decrease of the ATP concentration, decomplexation of PLL, and reopening of the stomatocyte. The competition between ATP input and consumption gives rise to a transient state that is controlled by the out-of-equilibrium process.

Originele taal-2	Engels
Pagina's (van-tot)	13113-13118
Aantal pagina's	6
Tijdschrift	Angewandte Chemie - International Edition
Volume	58
Nummer van het tijdschrift	37
DOI's	https://doi.org/10.1002/anie.201906331
Status	Gepubliceerd - 9 sep 2019

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Special Issue: Science Forum.
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Hot Topic: Robotics

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title = "ATP-mediated transient behavior of stomatocyte nanosystems",

abstract = "In nature, dynamic processes are ubiquitous and often characterized by adaptive, transient behavior. Herein, we present the development of a transient bowl-shaped nanoreactor system, or stomatocyte, the properties of which are mediated by molecular interactions. In a stepwise fashion, we couple motility to a dynamic process, which is maintained by transient events; namely, binding and unbinding of adenosine triphosphate (ATP). The surface of the nanosystem is decorated with polylysine (PLL), and regulation is achieved by addition of ATP. The dynamic interaction between PLL and ATP leads to an increase in the hydrophobicity of the PLL–ATP complex and subsequently to a collapse of the polymer; this causes a narrowing of the opening of the stomatocytes. The presence of the apyrase, which hydrolyzes ATP, leads to a decrease of the ATP concentration, decomplexation of PLL, and reopening of the stomatocyte. The competition between ATP input and consumption gives rise to a transient state that is controlled by the out-of-equilibrium process.",

keywords = "ATP, nanomotors, nanoreactors, out-of-equilibrium systems, stomatocytes",

author = "Hailong Che and Jianzhi Zhu and Shidong Song and Mason, {Alexander F.} and Shoupeng Cao and Pijpers, {Imke A.B.} and Abdelmohsen, {Loai K.E.A.} and {van Hest}, {Jan C.M.}",

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ATP-mediated transient behavior of stomatocyte nanosystems. / Che, Hailong; Zhu, Jianzhi; Song, Shidong; Mason, Alexander F.; Cao, Shoupeng; Pijpers, Imke A.B.; Abdelmohsen, Loai K.E.A. (Corresponding author); van Hest, Jan C.M. (Corresponding author).

In: Angewandte Chemie - International Edition, Vol. 58, Nr. 37, 09.09.2019, blz. 13113-13118.

Onderzoeksoutput: Bijdrage aan tijdschrift › Artikel recenseren › peer review

TY - JOUR

T1 - ATP-mediated transient behavior of stomatocyte nanosystems

AU - Che, Hailong

AU - Zhu, Jianzhi

AU - Song, Shidong

AU - Mason, Alexander F.

AU - Cao, Shoupeng

AU - Pijpers, Imke A.B.

AU - Abdelmohsen, Loai K.E.A.

AU - van Hest, Jan C.M.

N1 - Special Issue: Science Forum. This article also appears in: Hot Topic: Robotics

PY - 2019/9/9

Y1 - 2019/9/9

N2 - In nature, dynamic processes are ubiquitous and often characterized by adaptive, transient behavior. Herein, we present the development of a transient bowl-shaped nanoreactor system, or stomatocyte, the properties of which are mediated by molecular interactions. In a stepwise fashion, we couple motility to a dynamic process, which is maintained by transient events; namely, binding and unbinding of adenosine triphosphate (ATP). The surface of the nanosystem is decorated with polylysine (PLL), and regulation is achieved by addition of ATP. The dynamic interaction between PLL and ATP leads to an increase in the hydrophobicity of the PLL–ATP complex and subsequently to a collapse of the polymer; this causes a narrowing of the opening of the stomatocytes. The presence of the apyrase, which hydrolyzes ATP, leads to a decrease of the ATP concentration, decomplexation of PLL, and reopening of the stomatocyte. The competition between ATP input and consumption gives rise to a transient state that is controlled by the out-of-equilibrium process.

AB - In nature, dynamic processes are ubiquitous and often characterized by adaptive, transient behavior. Herein, we present the development of a transient bowl-shaped nanoreactor system, or stomatocyte, the properties of which are mediated by molecular interactions. In a stepwise fashion, we couple motility to a dynamic process, which is maintained by transient events; namely, binding and unbinding of adenosine triphosphate (ATP). The surface of the nanosystem is decorated with polylysine (PLL), and regulation is achieved by addition of ATP. The dynamic interaction between PLL and ATP leads to an increase in the hydrophobicity of the PLL–ATP complex and subsequently to a collapse of the polymer; this causes a narrowing of the opening of the stomatocytes. The presence of the apyrase, which hydrolyzes ATP, leads to a decrease of the ATP concentration, decomplexation of PLL, and reopening of the stomatocyte. The competition between ATP input and consumption gives rise to a transient state that is controlled by the out-of-equilibrium process.

KW - ATP

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